From the article: "Abstract, technology-enhanced learning can be used to replicate existing teaching practices, supplement existing teaching or transform teaching and/or learning process and outcomes. Enhancing workplace learning, which is integrated into higher professional education, with technology, calls for designing such transformations. Although research is carried out into different kinds of technological solutions to enhance workplace learning, we do not know which principles should guide such designs. Therefore, we carried out an explorative, qualitative study and found two such design principles for the design of technology-enhanced workplace learning in higher professional education. In this research, we focused on the students' perspective, since they are the main users of such technology when they are learning at the workplace, as part of their study in becoming lifelong learning, competent professionals."
From the article: "The goal of higher professional education is to enable students to develop into reflective practitioners, having both a firm theoretical knowledge base as well as appropriate, professional attitudes and skills. Learning at the workplace is crucial in professional education, because it allows students to learn to act competently in complex contexts and unpredictable situations. Reflection on learning during an internship is hard to interweave with the working process, which may easily result in students having little control over their own learning process while at work. In this study, we aim to discover in what way we can effectively use technology to enhance workplace learning, by synthesizing design propositions for Technology- Enhanced Workplace Learning (TEWL). We conducted design-based research which is cyclic in nature. Based on preliminary research, we constructed initial design propositions and developed a web-based app (software program for mobile devices) providing interventions based on these propositions. In a pilot study, students from different educational domains used this app to support their workplace learning. We evaluated the initial design propositions by carrying out both a theoretical and a practical evaluation. With the insights obtained from these evaluations, we developed a next version of the design propositions and improved the app accordingly. The research result is a set of design propositions for TEWL. For daily practice, the developed web-based app is available for re-use and further research and development."
Aiming for a more sustainable future, biobased materials with improved performance are required. For biobased vinyl polymers, enhancing performance can be achieved by nanostructuring the material, i.e. through the use of well-defined (multi-)block, gradient, graft, comb, etc., copolymer made by controlled radical polymerization (CRP). Dispoltec has developed a new generation of alkoxyamines, which suppress termination and display enhanced end group stability compared to state-of-art CRP. Hence, these alkoxyamines are particularly suited to provide access to such biobased nanostructured materials. In order to produce alkoxyamines in a more environmentally benign and efficient manner, a photo-chemical step is beneficial for the final stage in their synthesis. Photo-flow chemistry as a process intensification technology is proposed, as flow chemistry inherently leads to more efficient reactions. In particular, photo-flow offers the benefit of significantly enhancing reactant concentrations and reducing batch times due to highly improved illumination. The aim of this project is to demonstrate at lab scale the feasibility of producing the new generation of alkoxy-amines via a photo-flow process under industrially relevant conditions regarding concentration, duration and efficiency. To this end, Zuyd University of Applied Sciences (Zuyd), CHemelot Innovation and Learning Labs (CHILL) and Dispoltec BV want to enter into a collaboration by combining the expertise of Dispoltec on alkoxyamines for CRP with those of Zuyd and CHILL on microreactor technology and flow chemistry. Improved access to these alkoxyamines is industrially relevant for initiator manufacturers, as well as producers of biobased vinyl polymers and end-users aiming to enhance performance through nanostructuring biobased materials. In addition, access in this manner is a clear demonstration for the high industrial potential of photo-flow chemistry as sustainable manufacturing tool. Further to that, students and professionals working together at CHILL will be trained in this emerging, industrially relevant and sustainable processing tool.
Hbo-studenten doen tijdens hun opleiding werkervaring op, bijvoorbeeld door stage te lopen. Wij onderzoeken op welke manier technologie het leerproces van studenten op de werkplek kan ondersteunen. We ontwikkelen ontwerpprincipes en de daarop gebaseerde Stage-App.Doel Studenten leren op de werkplek heel anders dan op de hogeschool. Het leren gebeurt vaak onbewust en impliciet. De Stage-App helpt studenten bewuster te worden van dit leerproces en hier actiever mee bezig te zijn, om uiteindelijk meer uit hun stage te halen. Resultaten Dit onderzoek loopt. We hebben de resultaten tot nu toe gedeeld via posters, presentaties en artikelen. Gepubliceerde artikelen Exploring Design Principles for Technology-Enhanced Workplace Learning Design Propositions for Technology-Enhanced Workplace Learning Design & Implementation of Technology-Enhanced Workplace Learning Learning Analytics voor Stages en Werkplekleren Workplace Learning Analytics in Higher Engineering Education Automated Feedback for Workplace Learning in Higher Education De open-source Stage-App is beschikbaar via Github.com. Looptijd 01 november 2015 - 31 december 2020 Aanpak In het eerste deel van onderzoek hebben we uitgezocht wat er nodig is om een app voor het leerproces te ontwerpen. Vervolgens hebben we de Stage-App ontwikkeld. Daarin kunnen studenten registreren wat ze hebben geleerd en dit koppelen aan de leerdoelen die ze vanuit hun opleiding meekrijgen. We ontwikkelen de app zoveel mogelijk vanuit het perspectief van de student. Om de app aan te laten sluiten op de wensen en eisen van studenten houden we interviews, enquêtes, gebruikerstesten en co-design-sessies. Tegelijkertijd baseren we de functionaliteiten op literatuuronderzoek over werkplekleren en 'technology enhanced learning', om te zorgen dat de app het leerproces zo goed mogelijk ondersteunt.
Hbo-studenten doen tijdens hun opleiding werkervaring op, bijvoorbeeld door stage te lopen. Wij onderzoeken op welke manier technologie het leerproces van studenten op de werkplek kan ondersteunen. We ontwikkelen ontwerpprincipes en de daarop gebaseerde Stage-App.Doel Studenten leren op de werkplek heel anders dan op de hogeschool. Het leren gebeurt vaak onbewust en impliciet. De Stage-App helpt studenten bewuster te worden van dit leerproces en hier actiever mee bezig te zijn, om uiteindelijk meer uit hun stage te halen. Resultaten Dit onderzoek loopt. We hebben de resultaten tot nu toe gedeeld via posters, presentaties en artikelen. Gepubliceerde artikelen Exploring Design Principles for Technology-Enhanced Workplace Learning Design Propositions for Technology-Enhanced Workplace Learning Design & Implementation of Technology-Enhanced Workplace Learning Learning Analytics voor Stages en Werkplekleren Workplace Learning Analytics in Higher Engineering Education Automated Feedback for Workplace Learning in Higher Education De open-source Stage-App is beschikbaar via Github.com. Looptijd 01 november 2015 - 31 december 2020 Aanpak In het eerste deel van onderzoek hebben we uitgezocht wat er nodig is om een app voor het leerproces te ontwerpen. Vervolgens hebben we de Stage-App ontwikkeld. Daarin kunnen studenten registreren wat ze hebben geleerd en dit koppelen aan de leerdoelen die ze vanuit hun opleiding meekrijgen. We ontwikkelen de app zoveel mogelijk vanuit het perspectief van de student. Om de app aan te laten sluiten op de wensen en eisen van studenten houden we interviews, enquêtes, gebruikerstesten en co-design-sessies. Tegelijkertijd baseren we de functionaliteiten op literatuuronderzoek over werkplekleren en 'technology enhanced learning', om te zorgen dat de app het leerproces zo goed mogelijk ondersteunt.
